Call for Paper - July 2019 Edition
IJCA solicits original research papers for the July 2019 Edition. Last date of manuscript submission is June 20, 2019. Read More

Impact of Mobility Models on Performance of Ad hoc Position based Routing Protocol LAR

Print
PDF
International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Year of Publication: 2019
Authors:
Radhwan Basher Mahmood
10.5120/ijca2019918427

Radhwan Basher Mahmood. Impact of Mobility Models on Performance of Ad hoc Position based Routing Protocol LAR. International Journal of Computer Applications 181(40):27-31, February 2019. BibTeX

@article{10.5120/ijca2019918427,
	author = {Radhwan Basher Mahmood},
	title = {Impact of Mobility Models on Performance of Ad hoc Position based Routing Protocol LAR},
	journal = {International Journal of Computer Applications},
	issue_date = {February 2019},
	volume = {181},
	number = {40},
	month = {Feb},
	year = {2019},
	issn = {0975-8887},
	pages = {27-31},
	numpages = {5},
	url = {http://www.ijcaonline.org/archives/volume181/number40/30328-2019918427},
	doi = {10.5120/ijca2019918427},
	publisher = {Foundation of Computer Science (FCS), NY, USA},
	address = {New York, USA}
}

Abstract

Defining the benchmarking of mobility modeling is one of the most important challenges faced by researchers in the field of un-infrastructural network applications where these mobility models picture out the way how the wireless equipment can move, distribution and acceleration in a specific wireless network environment. To achieve the ambition of finding the appropriate model, many studies have examined the movement models in an unspecific aspect of Ad hoc routing algorithms. In this work, the evaluations of three types of mobility models with position based routing algorithm ALR have been done. The validation based on the performance metrics showed that the models that are close to the nature of the applied routing algorithm be more effectively and practically, so there is intensity needs to conduct deeply studies of the structural technique of the routing entity with the particular nature of each motion model to conduct more realistic and exquisite results.

References

  1. Camp, T., Boleng, J., Williams, B., Wilcox, L. and Navidi, W., 2002. Performance comparison of two location based routing protocols for ad hoc networks. In INFOCOM 2002. Twenty-First Annual Joint Conference of the IEEE Computer and Communications Societies. Proceedings. IEEE(Vol. 3, pp. 1678-1687). IEEE.
  2. Conti, M. and Giordano, S., 2014. Mobile ad hoc networking: milestones, challenges, and new research directions. IEEE Communications Magazine, 52(1), pp.85-96.
  3. Meghanathan, N., 2009. Survey and taxonomy of unicast routing protocols for mobile ad hoc networks. The International Journal on Applications of Graph Theory in Wireless Ad hoc Networks and Sensor Networks, 1(1), pp.1-21.
  4. Perkins, C.E. and Bhagwat, P., 1994, October. Highly dynamic destination-sequenced distance-vector routing (DSDV) for mobile computers. In ACM SIGCOMM computer communication review(Vol. 24, No. 4, pp. 234-244). ACM.
  5. Jacquet, P., Muhlethaler, P., Clausen, T., Laouiti, A., Qayyum, A. and Viennot, L., 2001. Optimized link state routing protocol for ad hoc networks. In Multi Topic Conference, 2001. IEEE INMIC 2001. Technology for the 21st Century. Proceedings. IEEE International (pp. 62-68). IEEE.
  6. Basagni, S., Chlamtac, I., Syrotiuk, V.R. and Woodward, B.A., 1998, October. A distance routing effect algorithm for mobility (DREAM). In Proceedings of the 4th annual ACM/IEEE international conference on Mobile computing and networking (pp. 76-84). ACM.
  7. Johnson, D.B., Maltz, D.A. and Broch, J., 2001. DSR: The dynamic source routing protocol for multi-hop wireless ad hoc networks. Ad hoc networking, 5, pp.139-172.
  8. Perkins, C., Belding-Royer, E. and Das, S., 2003. Ad hoc on-demand distance vector (AODV) routing (No. RFC 3561).
  9. Gü, M., Sorges, U. and Bouazizi, I., 2002, August. ARA—the ant-colony based routing algorithm for MANETs. In null (p. 79). IEEE.
  10. Jain, R., Puri, A. and Sengupta, R., 2001. Geographical routing using partial information for wireless ad hoc networks. IEEE Personal communications, 8(1), pp.48-57.
  11. Ko, Y.B. and Vaidya, N.H., 2000. Location‐Aided Routing (LAR) in mobile ad hoc networks. Wireless networks, 6(4), pp.307-321.
  12. Conti, M. and Giordano, S., 2014. Mobile ad hoc networking: milestones, challenges, and new research directions. IEEE Communications Magazine, 52(1), pp.85-96.
  13. Ns 2 project, http://www.isi.edu/nsnam/ns/
  14. BonnMotion, a mobility scenario generation and analysis tool, http://web.informatik.uni-bonn.de
  15. Johnson, D.B. and Maltz, D.A., 1996. Dynamic source routing in ad hoc wireless networks. In Mobile computing (pp. 153-181). Springer, Boston, MA.
  16. Hong, X., Gerla, M., Pei, G. and Chiang, C.C., 1999, August. A group mobility model for ad hoc wireless networks. In Proceedings of the 2nd ACM international workshop on Modeling, analysis and simulation of wireless and mobile systems (pp. 53-60). ACM.
  17. Universal Mobile Telecommunications System (UMTS) Selection procedures for the choice of radio transmission technologies of the UMTS, Umts 30.03 version 3.2.0, tr 101 112 ed., European Telecommunications Standards Institute (ETSI), 1998.
  18. Navidi, W. and Camp, T., 2004. Stationary distributions for the random waypoint mobility model. IEEE transactions on Mobile Computing, (1), pp.99-108.
  19. Ko, Y.B. and Vaidya, N.H., 2000. Location‐Aided Routing (LAR) in mobile ad hoc networks. Wireless networks, 6(4), pp.307-321.

Keywords

Ad hoc networks, mobility models, position based routing protocols